Display

ABSTRACT

A display has a front cabinet provided with a holding structure including plurality of bosses protruding from a boundary of a display panel holding area on the back surface of the front cabinet and provided with axial threaded holes, respectively, positioning ribs protruding from the back surface of the front cabinet so as to be in contact with a perimeter of a display panel placed in the front cabinet to position the display panel in the front cabinet, and screwing members each having a threaded part capable of being screwed into the threaded hole of the boss, and a pressing part extending about the axis of the threaded part. The bosses of the holding structure are divided into sets each of the adjacently arranged bosses respectively having different lengths respectively for display panels respectively having different thicknesses. A desired one of display panels respectively having different thicknesses can be fixedly held in the front cabinet without using additional holding members.

CROSS-REFERENCES TO RELATED APPLICATIONS

The present application is related to the Japan Patent Application No. 2007-238457, filed Sep. 13, 2007, the entire disclosure of which is expressly incorporated by reference herein.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a display provided with a front cabinet, and a display panel fixed to the front cabinet.

2. Description of the Related Art

A known display displays images on a display panel having a front surface exposed in a window formed in a front part of a cabinet. The cabinet of the display includes a front cabinet, namely, a front part of the cabinet, provided with the window, and a rear cabinet, namely, a rear part of the cabinet. The display is assembled by an assembling method including the steps of fixing the display panel to the front cabinet with its front surface exposed in the window, and fastening the rear cabinet to the front cabinet with fixing members.

A conventional method of fixing the display panel to the front cabinet uses fixing members. The same fixing members are used for fixing each of display panels respectively having different thicknesses. The fixing members are those specially for fixing display panels to front cabinets, other than general fixing members, such as screws and washers.

A technique disclosed in, for example, Japanese Unexamined Patent Application Publication (JP-A) No. 1997-311319 (hereinafter referred to as “Patent document 1”) puts holding members on the four corners of a display panel, and fastens the holding member to a rear cabinet with screws.

A technique disclosed in, for example, Japanese Utility Model Registration Application No. 3111670 (hereinafter referred to as “Patent document 2”) sandwiches corners of a display panel between two spacers, and fastens the spacers to a front cabinet with screws without changing the position of the spacers relative to the display panel.

A technique disclosed in JP-A 2001-305982 (hereinafter, referred to as “Patent document 3”) puts holding members on four corners of a display panel and fastens the holding members to a rear cabinet with screws.

A technique disclosed in, for example, Japanese Unexamined Utility Model Registration Application Publication No. 1987-186488 (hereinafter, referred to as “Patent document 4”), which is not a technique for fixing a display panel to a cabinet, fits a display panel in members extended on a wall and slits formed by disposing bosses at predetermined positions, presses the wiring board against the wall, and fixes the wiring board to the wall. Washers are put on screws, respectively, and screws are screwed into the members or the bosses with the back surfaces of the washers in contact with the display panel such that the washers presses the wiring board fitted in the slits against the wall.

The Patent documents 1 to 3 have the following problems. All the techniques disclosed in Patent documents 1 to 3 need fixing members for fixing the display panel to the cabinet. Therefore, those techniques need to assemble many parts requiring much assembling work. The fixing members necessary for fixing the display panel to the cabinet increase the cost

The technique disclosed in Patent document 4 is not a technique for fixing a display panel to a cabinet.

BRIEF SUMMARY OF THE INVENTION

The present invention has been made in view of those problems and it is therefore an object of the present invention to provide a display including a front cabinet to which any one of display panels respectively having different thicknesses can be fixed without using other members.

A display in one aspect of the present invention having a front cabinet provided with a substantially rectangular window in which a front surface of a thin display panel disposed in the front cabinet is substantially exposed,

a holding structure, including plurality of bosses with axially threaded holes, with the plurality of bosses protruding from a boundary of a display panel holding area on a back surface of the front cabinet;

positioning ribs, protruding from the back surface of the front cabinet so as to be in contact with a perimeter of a display panel placed in the front cabinet to position the display panel in the front cabinet; and

screwing members, with each screwing member having a threaded part capable of being screwed into the threaded hole of each boss of plurality of bosses, and a pressing part, extending about the axis of the threaded part;

the plural of bosses of the holding structure are divided into sets, each of the adjacently arranged bosses respectively having different lengths respectively for display panels respectively having different thicknesses,

a display panel is positioned in the front cabinet by the positioning ribs,

the screwing members are screwed into the threaded holes of the plurality of bosses of a length substantially equal to a thickness of a display panel positioned in the front cabinet to hold the display panel fixedly between the back surfaces of the pressing parts of the screwing members and the back surface of the front cabinet.

The present invention relates to the thus formed display in which a thin display panel is disposed in the front cabinet with its front surface exposed in the substantially rectangular window of the front cabinet. This display includes: the holding structure including plurality of bosses protruding from the boundary of the panel holding area on the back surface of the front cabinet and provided with axially threaded holes, respectively, the positioning ribs protruding from the back surface of the front cabinet so as to be in contact with the perimeter of a display panel placed in the front cabinet to position the display panel in the front cabinet, and the screwing members having threaded parts capable of being screwed into the threaded holes of the bosses, respectively, and the pressing parts extending about the axes of the threaded shanks, respectively. The plurality of the bosses of the holding structure are divided into sets each of the adjacently arranged bosses respectively having different lengths respectively for display panels respectively having different thicknesses.

A display panel can be fixedly held between the back surfaces of the pressing parts of the screwing members and the back surface of the front cabinet by positioning the display panel in the front cabinet by the positioning ribs, screwing the screwing members into the threaded holes of the bosses of the length substantially equal to the thickness of the display panel disposed in the front cabinet.

In other words, the display panel is fixed to the front cabinet by the positioning ribs and the screwing members each having the threaded part and the pressing part. Therefore, any additional fixing members are not necessary when generally available members, such as washers, are used as the pressing parts. Thus the display can be formed by assembling a small number of parts by less assembling work. Fixing members are not necessary and hence the cost can be reduced accordingly.

As apparent from the foregoing description, according to the present invention, the front cabinet can be used for fixedly holding any one of display panels respectively having different thicknesses.

Preferably, a support rib having a length substantially equal to that of each of the bosses is formed near the boss, and the screwing member is screwed into the threaded hole of the boss such that the back surface of the pressing part of the screwing member is held near the upper end of the rib. When the screwing members are screwed into the threaded holes of the bosses to hold a display panel between the back surfaces of the pressing parts and the back surface of the front cabinet, parts, not in contact with the display panel, of the pressing parts are held near the upper ends of the support ribs, respectively. Thus, the back surfaces of the pressing parts are substantially parallel to the back surfaces of the display panel. Therefore, it is possible to prevent failure in exerting force on the display panel by the back surfaces of the pressing parts when the screwing members are screwed into the threaded holes of the bosses, and the display panel can be surely fixed to the front cabinet.

Preferably, each support rib has a T-shaped top surface.

Since the pressing parts rest on the T-shaped top surfaces when the screwing members are screwed into the threaded holes of the bosses, the screwing members can surely exert force through the pressing parts on the display panel.

Preferably, the back surface of the pressing part of each screwing member is formed such that high frictional force acts between the back surface of the pressing part and the back surface of the display panel. Since high frictional force acts between the back surface of the pressing part and the back surface of the display panel when the screwing member is screwed into the threaded hole of the boss, it is possible to prevent failure in exerting force on the display panel by the back surfaces of the pressing parts when the screwing members are screwed into the threaded holes of the bosses, and the display panel can be surely fixed to the front cabinet.

According to another aspect of the present invention, the display includes: a display panel having the shape of a thin box, a wiring board, for giving received signals to the display panel and supplying power to the display panel, attached to the back surface of the display panel; a rear cabinet joined to the back end of the front cabinet; and support ribs disposed near the bosses, respectively, and each having a length substantially equal to that of the boss adjacent thereto; wherein the pressing parts are washers, each of the support ribs has a T-shaped top surface, the back surface of the pressing part of the screwing member is supported on the T-shaped top surface of the support rib when the screwing member is screwed into the threaded hole of the boss, the pressing part is provided in its back surface with projections projecting from the back surface so that high frictional force may act between the back surface of the pressing part and the display panel.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an exploded perspective view of a display in a preferred embodiment according to the present invention;

FIG. 2 is a fragmentary sectional view in a vertical plane of a display panel fixed to a front cabinet;

FIG. 3 is a rear view of the front cabinet;

FIG. 4 is a view of assistance in explaining a positioning rib included in the preferred embodiment;

FIG. 5 is a perspective view of assistance in explaining a holding structure included in the preferred embodiment;

FIG. 6 is a perspective view of a screwing member; and

FIGS. 7A and 7B are fragmentary sectional views of assistance in explaining a method of fixing display panels having different thicknesses, respectively, to the front cabinet.

DETAILED DESCRIPTION OF THE INVENTION

A preferred embodiment of the present invention and modifications will be described with reference to the accompanying drawings in the following order.

(1) Embodiment

(2) Modifications

Embodiment

A display 10 in a preferred embodiment according to the present invention will be described with reference to the accompanying drawings. FIG. 1 shows the display 10. The display 10 has a cabinet including a front cabinet 100 and a rear cabinet 70, a display panel 90 for displaying images, and a wiring board 80 for electrically controlling operations of the display 10.

The display panel 90 includes devices for displaying images. A panel body that displays pictures and characters represented by analog or digital signals is a principal component of the display panel 90. In the present invention, display panel 90 includes other devices for driving the panel body. Suppose that the panel body is a liquid crystal panel. Then, those devices are a backlight unit for illuminating the panel body from behind the panel body, a bezel as a protective frame for protecting the panel body, a back frame and such. The following description will be made on an assumption that the panel body is a liquid crystal panel. However, the panel body is not limited to a liquid crystal panel and may be, for example, a plasma display panel (PDP) or a light-emitting diode panel (LEDP).

FIG. 2 is a fragmentary sectional view in a vertical plane of the display panel 90 fixed to the front cabinet 100. The display panel 90 displays images represented by digital signals controlled by the wiring board 80. As shown in FIG. 2, the display panel 90 has the shape of a thin box. As mentioned above, the display panel 90 includes a panel body 91, a backlight unit 92, a bezel 93, an optical sheet 94, a positioning frame 95 and a back frame 96.

In the display panel 90, the optical sheet 94 disposed behind the panel body 91, and the backlight unit 92 is disposed on the back surface of the optical sheet 94. The panel body 91, the optical sheet 94 and the backlight unit 92 are fixedly held by the positioning frame 95 in a predetermined positional relation. The panel body 91, the optical sheet 94 and the backlight unit 92 held in the predetermined positional relation are covered with the bezel 93 from the front side and with the back frame 96 from the back side. The panel body 91 displays images on its front surface on the front side. The bezel 93 is a reinforcing frame for covering the panel body 91 from the front side. The optical sheet 94 has a function to absorb or reflect light in a predetermined wavelength range in addition to a function to diffuse light emitted by the backlight unit 92 to enhance brightness. The components of the display panel 90 are fixed by, for example, fixing side parts thereof with screws.

The front cabinet 100 is a front part of a cabinet. The display panel 90 is fastened to the front panel with screwing members 150. FIG. 3 is a rear view of the front cabinet 100. The front cabinet 100 of the display 10 has the shape of a thin box having one open end. The front cabinet 100 has a front wall opposite the open end and provided with a substantially rectangular window 110 in which the front surface of the display panel 90 is exposed, positioning ribs 120 for positioning the display panel 90 in the front cabinet 90 with the front surface thereof exposed in the window 110, a holding structure 130, for fixedly holding the display panel 90 placed in the front cabinet 100, including plural bosses 131 a to 131 x, and support ribs 140 on which screwing members 150, which will be described layer, screwed into threaded holes 132 of the bosses 131 a to 131 x rest. The back surface of the front cabinet 100 is opposite the front surface of the same in which the front surface of the display panel 90 is exposed. Preferably, the holding structure 130 and the positioning ribs 120 are formed integrally with the front cabinet 100.

In this embodiment, the four positioning ribs 120 are arranged in each of the upper and the lower side of the front cabinet 100 as shown in FIG. 3, and the two positioning ribs 120 are arranged in each of the right and the left side of the front cabinet 100 as shown in FIG. 3. In the holding structure 130, the eight bosses are arranged in each of the upper and the lower side of the front cabinet 100, and the four ribs are arranged in the right and the left side of the front cabinet 100. The bosses 131 a to 131 x are disposed so as to lie near the perimeter of the display panel 90 mounted on the front cabinet 100. The positioning ribs 120 are arranged such that the free ends thereof are in contact with the perimeter of the display panel 90 mounted on the front cabinet 100.

The positioning ribs 120 positions the display panel 90 at a predetermined position in the front cabinet 100. FIG. 4 is a view of assistance in explaining the positioning rib 120 included in this embodiment. In FIG. 4, the display panel 90 mounted on the front cabinet 100 is indicated by dotted lines. Each positioning rib 120 is a part rising from the back surface of the front cabinet 100 and having the shape of a thin plate. An inner part of a tip part of the positioning rib 120 is cut to form a step 121. The positioning rib 120 has an L-shape. The step 121 and an end surface 122 rising from the step 121 positions the display panel 90. More concretely, a part of the front surface of the display panel 90 is seated on the step 121, and a part of a side surface of the display panel 90 is brought into contact with the end surface 122. Thus, the display panel 90 is disposed on the back surface of the front cabinet 100 with the side edges thereof in contact with the end surfaces 122 of the positioning ribs 120.

The holding structure 130 holds the display panel 90 fixedly in the front cabinet 100. FIG. 5 is a perspective view of assistance in explaining the holding structure 130 included in this embodiment. Referring to FIG. 5, the holding structure 130 has the plural bosses 131 a to 131 x. The bosses 131 a to 131 x are cylindrical parts rising from the back surface of the front cabinet 100 and are provided with axial threaded holes 132, respectively. Screwing members 150, which will be described later, are screwed into the threaded holes 132, respectively. As shown in FIG. 3, the bosses respectively having different lengths, such as the bosses 131 i and 131 j, are disposed contiguously. The sets each of the two bosses respectively having different lengths are used for holding two display panels respectively having different thicknesses, respectively. The lengths of bosses are determined so as to be suitable for holding the two display panels, respectively.

Desirably, the bosses 131 a to 131 x and the positioning ribs 120 are not disposed at the same positions, respectively, on the back surface of the front cabinet 100 to avoid the breakage of the bosses 131 a to 131 x due to the transmission of shocks exerted on the positioning ribs 120 to the bosses 131 a to 131 x. For example, a state where the boss 131 a of the holding structure 130 and the positioning rib 120 are at the same position is a state where the boss 131 a and the positioning rib 120 are on a two-dot chain line AA′ shown in FIG. 3 and the boss 131 a and the positioning rib 120 are formed in a single member.

The support ribs 140 support the screwing members 150, which will be described later, screwed into the threaded holes 132 of the bosses 131 a to 131 x, respectively. As shown in FIG. 5, the support ribs 140 are plate-shaped parts rising from the back surface of the front cabinet 100. The respective lengths of the support ribs 140 are substantially equal to those of the adjacent ones of the bosses 131 a to 131 x, respectively. The support ribs 140 are combined with the bosses 131 a to 131 x, respectively. Therefore, the support ribs 140 have lengths substantially equal to those of the adjacent ones of the bosses 131 a to 131 x. Each of the support ribs 140 has a T-shaped top surface (substantially T-shaped top surface). Although the support ribs 140 and the bosses 131 a to 131 x respectively adjacent to the support ribs 140 are integrated in parts, respectively, the support ribs 140 and the bosses 131 a to 131 x may be formed separately.

The screwing members 150 are screwed into the threaded holes 132 of the bosses 131 a to 131 x to fasten the display panel 90 to the front cabinet 100. FIG. 6 is a perspective view of assistance in explaining the screwing member 150. As shown in FIG. 6, the screwing member 150 has a threaded shank 151 and a pressing part 152 extending about the axes of the threaded shank 151. In this embodiment, the threaded shanks 151 are provided with screw threads capable of being engaged in the threaded holes 132 of the bosses 131 a to 131 x, respectively, and the pressing parts 152 are thin, tubular washers or the like. The screwing member 150 is formed by passing the threaded shank 151 through the opening of the washer. In this embodiment, the pressing part 152 is provided on its back surface with projections 153 projecting in a direction of the thickness of the pressing part 152.

The rear cabinet 70 is joined to the open rear end of the front cabinet 100 to form a back part of the cabinet. The rear cabinet 70 has the shape of a thin box having an open end. Joining parts 71 that engage with the front cabinet 100 are formed integrally with side walls of the rear cabinet 70.

The wiring board 80 controls received signals to display images on the display panel 90. The wiring board 80 includes a digital processing unit for controlling received signals, and a power unit, such as a stabilized power unit, for supplying power to the component parts. For example, the digital processing unit includes a tuner, a front end unit, a decoder and an image processing unit. The digital processing unit demodulates received, broadcast television signals, and gives signals obtained by demodulating the received, broadcast television signals to the display panel 90. The display panel 90 obtains analog signals through the digital-to-analog conversion of the received signals to display images. The power unit stabilizes the voltage of power received from an external power supply and supplies power of a stabilized voltage to the display panel 90 and the wiring board 80.

A method of assembling the display of the present invention will be described below.

The wiring board 80 is fastened to the back surface of the display panel 90 with screws. As shown in FIG. 2 by way of example, the wiring board 80 is fastened to a holding member, not shown, formed on the back frame 96 with screws. The display panel 90 is put in the front cabinet 100 such that the display surface of the display panel 90 is exposed in the window 110 of the front cabinet 100. Then, the screwing members 150 are screwed into the threaded holes 132 of the bosses 131 a to 131 x to fix the display panel 90 to the front cabinet 100.

As shown in FIG. 2, the back surfaces of the pressing parts 152 of the screwing members 150 are in contact with the edge 93 a of the bezel 93 of the display panel 90 to press the display panel 90 against the back surface of the front cabinet 100. Thus, the display panel 90 is held between the back surface of the front cabinet 100 and the back surfaces of the pressing parts 152. In this embodiment, a state where the display panel 90 is held between the back surface of the front cabinet 100 and the back surfaces of the pressing parts 152 is a state where the display panel 90 is held between the steps 121 of the positioning ribs 120 and the back surface of the pressing parts 152. Naturally, the positioning ribs 120 are omitted in some cases and display panel 90 does not necessarily held in such a state.

In this display 10, either of the display panels 90 respectively having different thicknesses can be fixed to the front cabinet 100. More concretely, the screwing members are screwed selectively into the threaded holds 132 of suitable ones of the bosses 131 a to 131 x selected according to the thickness of the display panel 90. In this embodiment, the thickness of the display panel 90 is a dimension between the front surface of the bezel 93 and the rear edge 93 a (FIG. 2) of the bezel 93.

FIGS. 7A and 7B are views of assistance in explaining a method of fixing display panels 90 respectively having different thicknesses d1 and d2 (d1<d2) to the front cabinet 100. FIG. 7A shows the display panel 90 having the thickness d1 to the front cabinet 100 by using the bosses 131 j. FIG. 7B shows the display panel 90 having the thickness d2 to the front cabinet 100 by using the bosses 131 i. The bosses 131 i are shorter than the bosses 131 j.

In FIG. 7A, the height D1 of the boss 131 j from the back surface of the front cabinet 100 is substantially equal to the sum of the height d′1 of the step 121 of the positioning rib 120 from the back surface of the front cabinet 100 and the thickness d1 of the display panel 90. Therefore, the back surfaces of the pressing part 152 is brought into contact with the edge of the display panel 90 when the screwing member 150 is screwed into the threaded hole 132 of the boss 131 j. Thus, the pressing part 152 presses the display panel 90 against the back surface of the front cabinet 100 to hold the display panel 90 between the step 121 of the positioning rib 120 and the pressing part 152 when the screwing member 150 is screwed into the threaded holes 132 of the boss 131 j.

A part, not in contact with the display panel 90, of the pressing part 152 is in contact with the top surface of the support rib 140. Thus, the pressing part 152 is held with its back surface extended substantially parallel to the contact surface of the display panel 90. Such contact surface means a surface to which the back surface of the pressing part 152 contacts. Consequently, frictional force acting on the back surface of the pressing part 152 can be effectively used. Preferably, the height D1 of the boss 131 j and the support rib 140 is slightly shorter than the sum of the height d′1 of the step 121 of the positioning rib 120 and the thickness d1 of the display panel 90, namely, d1+d′1.

Similarly, as shown in FIG. 7B, the height D2 of the boss 131 i from the back surface of the front cabinet 100 is substantially equal to the sum of the height d′2 of the step 121 of the positioning rib 120 and the thickness d2 of the display panel 90, namely, d2+d′2. Therefore, the back surfaces of the pressing part 152 is brought into contact with the edge of the display panel 90 when the screwing member 150 is screwed into the threaded hole 132 of the boss 131 i. Thus, the display panel 90 is held between the step 121 of the positioning rib 120 and the pressing part 152 when the screwing member 150 is screwed into the threaded holes 132 of the boss 131 i to fix the display panel 90 to the front cabinet 100. Either of the display panels 90 respectively having different thicknesses can be fixed to the front cabinet 100 by selectively using the bosses respectively having different lengths.

After fixing the display panel 90 to the front cabinet 100, the respective open ends of the front cabinet 100 and the rear cabinet 70 are joined and the front cabinet 100 and the rear cabinet 70 are fastened together. More concretely, the joining parts 71 in the side walls of the rear cabinet 70 are fitted in openings, not shown, formed in the front cabinet 100 to join the front cabinet 100 and the rear cabinet 70 correctly together. Then, the front cabinet 100 and the rear cabinet 70 are fastened together with screws to complete the cabinet of the display 10. The display panel 90 and the wiring board 80 are held at predetermined positions, respectively, in the cabinet.

Modifications

The present invention allows various modifications.

In the foregoing embodiment, the bosses 131 a to 131 x are divided into sets each of the two bosses of different lengths. The number of the bosses of each set is not limited to two, the number of the bosses of each set may be changed according to the number of display panels 90 respectively having different thicknesses.

The shape of the top surfaces of the support ribs 140 is not limited to a T-shape; the top surfaces of the support ribs 140 may be formed in any suitable shape, provided that the pressing parts 152 of the screwing members 150 can be held with their back surfaces extended substantially parallel to the contact surface of the display panel 90 when the screwing members 150 are screwed into the threaded holes 132 of the bosses 131 a to 131 x.

The present invention is not limited in its practical application to the preferred embodiment specifically described herein and the parts of the embodiment may be replaced by suitable parts and the combinations of the same may be properly changed.

The parts of the foregoing embodiment may be replaced with parts of the know techniques capable of replacing the parts of the foregoing embodiment, and combinations of those parts may be changed.

The parts and combinations of the foregoing embodiment may be changed for those thought to be capable of replacing the parts and combinations of the foregoing embodiment by persons skilled in the art.

While the invention has been particularly shown and described with respect to preferred embodiments thereof, it should be understood by persons skilled in the art that the foregoing and other changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. 

1. A display, comprising: a front cabinet provided with a substantially rectangular window in which a front surface of a thin display panel disposed in the front cabinet is substantially exposed, a holding structure, including plurality of bosses with axially threaded holes, with the plurality of bosses protruding from a boundary of a display panel holding area on a back surface of the front cabinet; positioning ribs, protruding from the back surface of the front cabinet so as to be in contact with a perimeter of a display panel placed in the front cabinet to position the display panel in the front cabinet; and screwing members, with each screwing member having a threaded part capable of being screwed into the threaded hole of each boss of plurality of bosses, and a pressing part, extending about the axis of the threaded part; the plural of bosses of the holding structure are divided into sets, each of the adjacently arranged bosses respectively having different lengths respectively for display panels respectively having different thicknesses, a display panel is positioned in the front cabinet by the positioning ribs, the screwing members are screwed into the threaded holes of the plurality of bosses of a length substantially equal to a thickness of a display panel positioned in the front cabinet to hold the display panel fixedly between the back surfaces of the pressing parts of the screwing members and the back surface of the front cabinet.
 2. The display according to claim 1, wherein a support rib having a length substantially equal to that of each of the bosses is formed near the boss, and the back surface of the pressing part of the screwing member is held near the upper end of the rib when the screwing member is screwed into the threaded hole of the boss.
 3. The display according to claim 1, wherein each support rib has a T-shaped top surface.
 4. The display according to claim 1, wherein the back surface of the pressing part of each screwing member is formed such that high frictional force acts between the back surface of the pressing part and a back surface of a display panel placed in the front cabinet.
 5. The display according to claim 1 further comprising: a display panel having the shape of a thin box; a wiring board, for giving received signals to the display panel and for supplying power to the display panel, attached to the back surface of the display panel; a rear cabinet joined to a back end of the front cabinet; and support ribs disposed near the bosses, respectively, and each having a length substantially equal to that of the boss adjacent thereto.
 6. The display according to claim 1, wherein support ribs respectively having lengths equal to those of the bosses, respectively, are formed near the bosses having the equal lengths, respectively, the pressing parts are washers, each of the support ribs has a T-shaped top surface, the back surfaces of the pressing parts of the screwing members rest on the T-shaped top surfaces of the support ribs, respectively, when the screwing members are screwed into the threaded holes of the bosses, respectively, and the pressing part of each screwing member is provided in its back surface with projections projecting from the back surface so that high frictional force may act between the back surface of the pressing part and the display panel. 